CN102179294A - Method and device for removing iron in fluid - Google Patents
Method and device for removing iron in fluid Download PDFInfo
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- CN102179294A CN102179294A CN201110007958XA CN201110007958A CN102179294A CN 102179294 A CN102179294 A CN 102179294A CN 201110007958X A CN201110007958X A CN 201110007958XA CN 201110007958 A CN201110007958 A CN 201110007958A CN 102179294 A CN102179294 A CN 102179294A
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Abstract
The invention relates to a method and a device for removing iron in fluid, and the device is characterized by comprising a magnetic field formed by a permanent magnet or an electromagnetic south magnetic pole and an electromagnetic north magnetic pole, a non-magnetic cylinder with a rotary power mechanism, a soft magnetic medium arranged in the non-magnetic cylinder and a channel with a cavity being larger than the non-magnetic cylinder, wherein a plurality of through holes are arranged on the peripheral side surfaces of the non-magnetic cylinder, a fluid collecting groove is arranged on the outer surface of the magnetic field, which is dead against a fluid outlet at the other end of the non-magnetic cylinder, a fluid introduction port is arranged on the outer surface of the magnetic field, which is dead against a fluid inlet at one end of the non-magnetic cylinder, and a ferromagnetic substance collecting groove is arranged at a ferromagnetic substance outlet at the end part of the channel. Compared with the prior art, the device has the advantages of effectively recovering the capability of removing ferromagnetic substances of the soft magnetic medium, being convenient and reliable to use, being simple in structure, and being low in manufacturing cost.
Description
Technical field
The present invention relates to a kind of magnetic selection method and device.
Background technology
Existing technology problem to be solved by the ferromagnetic material in the fluid that is arranged on the soft magnetic medium aspiration flow warp between the magnetic pole of north and south is the cleaning to the soft magnetic medium that is filled ferromagnetic material.Prior art is earlier soft magnetic medium to be removed from magnetic field, by the mode of flushing that the cleaning of the ferromagnetic material on the soft magnetic medium is clean then, this kind method one need expend a large amount of clean water, and, the wastewater flow rate that cleaning process produced relatively reaches, two cleaning effects for the ferromagnetic material in those dark plant soft magnetic mediums (as the soft magnetism steel wool) are very poor, and very difficult cleaning is come out, thereby the ability of removing ferromagnetic material of these soft magnetic mediums is obviously descended.
Summary of the invention
Goal of the invention of the present invention is to provide a kind of fluid deferrization method and device that can have the efficient recovery soft magnetic medium to remove ferromagnetic physical capacity.
Fluid deferrization method of the present invention is to realize like this, be included in the magnetic field between the magnetic pole of north and south with the ferromagnetic material process in the soft magnetic medium draw fluid, ferromagnetic material process on the cleaning soft magnetic medium, its special feature is to be arranged on all around by soft magnetic medium, and the side is provided with in the non-magnetic conductive cylinder that has rotary power of several perforation, being fluid with the ferromagnetic material process in the soft magnetic medium draw fluid in the magnetic field between the magnetic pole of north and south enters in the non-magnetic conductive cylinder from the wherein end of non-magnetic conductive cylinder, draw behind the ferromagnetic material again to bring out through soft magnetic medium and enter in the fluid collection tank from the neck one of non-magnetic conductive cylinder, ferromagnetic material process on the cleaning soft magnetic medium is that the non-magnetic conductive cylinder that will be provided with soft magnetic medium places cavity than in the big passage of non-magnetic conductive cylinder, driving non-magnetic conductive cylinder by rotary power rotates at a high speed, non-magnetic conductive cylinder then drives soft magnetic medium and rotates at a high speed, by centrifugal force the ferromagnetic material on the soft magnetic medium is separated and passed in several set perforation admission passages of non-magnetic conductive cylinder side, and collect in the ferromagnetic material feeder along passage.The present invention is owing to adopt centrifugal mode, and, adopt passage and non-magnetic conductive cylinder and soft magnetic medium is arranged in the non-magnetic conductive cylinder centrifugal force that the ferromagnetic material acquisition on the soft magnetic medium is rotated at a high speed, soft magnetic medium is arranged in the non-magnetic conductive cylinder, has made things convenient for the setting of the physical aspect of soft magnetic medium.
Here, the non-magnetic conductive cylinder that is provided with soft magnetic medium is moved apart behind the magnetic field between the magnetic pole of north and south or eliminate magnetic field after just clean ferromagnetic material process on the soft magnetic medium.Though, by centrifugal force with ferromagnetic material from soft magnetic medium separate and admission passage after, because the magnetic force of passage is very weak, therefore, ferromagnetic material just is easy to enter in the reject chute along passage, but, if in magnetic field, carry out, even centrifugal force is very big, the ferromagnetic material of those strong magnetic conductivity also is not easy to separate from soft magnetic medium, and after leaving or eliminating magnetic field, has lost the ferromagnetic material of magnetic attraction, even it has very strong magnetic conductivity, also be to be easy to separate from soft magnetic medium.
Here, soft magnetic medium is the soft magnetism steel wool.Adopt the soft magnetism steel wool, even distortion is concentrated toward non-magnetic conductive cylinder four limits under action of centrifugal force, still, in case tube stops the rotation, deformation force makes the magnetically soft steel gross weight newly be moved back on original position again.
In order to prevent that the ferromagnetic material in the passage from entering fluid collection tank internal contamination fluid, in the magnetic field that stops between the magnetic pole of north and south with after the ferromagnetic material process in the soft magnetic medium draw fluid fluid collection tank being covered in.
Fluid deferrization device of the present invention is to realize like this, comprise by the magnetic field that forms between the magnetic pole of north and south, have revolving power mechanism non-magnetic conductive cylinder, be arranged on soft magnetic medium, the cavity passage bigger in the non-magnetic conductive cylinder than non-magnetic conductive cylinder, the side is provided with several perforation around the non-magnetic conductive cylinder, the fluid issuing that faces non-magnetic conductive cylinder outside the magnetic field is provided with fluid collection tank, the fluid inlet that faces non-magnetic conductive cylinder outside the magnetic field is provided with the fluid introducing port, and the ferromagnetic material outlet of passage is provided with the ferromagnetic material feeder.During work, the fluid introducing port imports fluid in the non-magnetic conductive cylinder in the magnetic field into, and the soft magnetic medium in the non-magnetic conductive cylinder is drawn the ferromagnetic material in the fluid get off, and the fluid that has separated ferromagnetic material flows in the fluid collection tank; After treating that soft magnetic medium has been filled ferromagnetic material, non-magnetic conductive cylinder is moved apart magnetic field or eliminates magnetic field, non-magnetic conductive cylinder is placed in the passage, driving non-magnetic conductive cylinder by revolving power mechanism then rotates at a high speed, utilize centrifugal force that the ferromagnetic material on the soft magnetic medium is separated and pass non-magnetic conductive cylinder admission passage, and fall in the ferromagnetic material feeder along passage, thereby the soft magnetic medium cleaning is clean, so that it comes into operation effectively again.
Here, soft magnetic medium adopts the soft magnetism steel wool.Because adopt centrifugal force cleaning ferromagnetic material, like this, the ferromagnetic material that cleaning is deep in the steel wool just is easy to, thereby can utilize the good ability of removing ferromagnetic material of soft magnetism steel wool, simultaneously, can clear up the ferromagnetic material on the steel wool again effectively, make it recover original function effectively.
The porch of fluid collection tank is provided with shield.The effect of shield is to prevent that the ferromagnetic material that remains in the non-magnetic conduction passage from falling in the fluid collection tank.
The present invention compared with the prior art, owing to adopted the centrifugal force that centrifugal non-magnetic conductive cylinder is combined with non-magnetic conduction passage and utilize non-magnetic conductive cylinder to produce to separate ferromagnetic material on the soft magnetic medium, therefore, have and to have the efficient recovery soft magnetic medium to remove ferromagnetic physical capacity, easy to use and reliable, simple in structure, advantage of low manufacturing cost.
Description of drawings:
Fig. 1 is the structural representation of the embodiment of the invention 1;
Fig. 2 is the structural representation of embodiment 1 non-magnetic conductive cylinder;
Fig. 3 is the structural representation of the embodiment of the invention 2;
Fig. 4 is the structural representation of the non-magnetic conductive cylinder of embodiment 2;
Fig. 5 is the A-A cutaway view of Fig. 3;
Fig. 6 is the structural representation of embodiment 3;
Fig. 7 is the structural representation of embodiment 4;
Fig. 8 is the structural representation of embodiment 5.
The specific embodiment:
Now in conjunction with the accompanying drawings and embodiments the present invention is done and describes in further detail:
Fluid deferrization method of the present invention is to realize like this, be included in the magnetic field between the magnetic pole of north and south with the ferromagnetic material process in the soft magnetic medium draw fluid, ferromagnetic material process on the cleaning soft magnetic medium, its special feature is to be arranged on all around by soft magnetic medium, and the side is provided with in the non-magnetic conductive cylinder that has rotary power of several perforation, being fluid with the ferromagnetic material process in the soft magnetic medium draw fluid in the magnetic field between the magnetic pole of north and south enters in the non-magnetic conductive cylinder from the wherein end of non-magnetic conductive cylinder, draw behind the ferromagnetic material again in the fluid collection tank below the other end of non-magnetic conductive cylinder comes out to enter through soft magnetic medium, ferromagnetic material process on the cleaning soft magnetic medium is that the non-magnetic conductive cylinder that will be provided with soft magnetic medium places cavity than in the big passage of non-magnetic conductive cylinder, driving non-magnetic conductive cylinder by rotary power rotates at a high speed, non-magnetic conductive cylinder then drives soft magnetic medium and rotates at a high speed, by centrifugal force the ferromagnetic material on the soft magnetic medium is separated and passed in several set perforation admission passages of non-magnetic conductive cylinder side, and collect in the ferromagnetic material feeder along passage.
Here, the non-magnetic conductive cylinder that is provided with soft magnetic medium is moved apart behind the magnetic field between the magnetic pole of north and south or eliminate magnetic field after just clean ferromagnetic material process on the soft magnetic medium.
Soft magnetic medium is the soft magnetism steel wool.
In the magnetic field that stops between the magnetic pole of north and south with after the ferromagnetic material process in the soft magnetic medium draw fluid fluid collection tank being covered in.
Embodiment 1: as Fig. 1, shown in 2, fluid deferrization device of the present invention is to realize like this, comprise by 16 magnetic fields that form 1 of the north and south permanent magnet pole that has armour iron 15, be arranged on the passage 3 in the magnetic field, be arranged on the non-magnetic conductive cylinder 5 that has revolving power mechanism 4 in the passage 3, be arranged on the soft magnetic medium 6 in the non-magnetic conductive cylinder 5, frame 15, promote actuating unit 16, passage 3 tapered and non-magnetic conductions, corresponding non-magnetic conductive cylinder 5 is tapered, non-magnetic conductive cylinder 5 rotates and is arranged on the frame 15, frame 15 is connected with lifting actuating unit 16, as shown in Figure 3, the side is provided with several perforation 7 around the non-magnetic conductive cylinder 5, perforation 7 is net distribution side around non-magnetic conductive cylinder 5, the fluid issuing 5a that face faces non-magnetic conductive cylinder 5 lower ends is provided with fluid collection tank 8, the fluid inlet 5b that faces non-magnetic conductive cylinder 5 upper ends is provided with fluid introducing port 9, and the ferromagnetic material outlet 3a that faces passage 3 lower ends is provided with ferromagnetic material feeder 10.
Soft magnetic medium 6 adopts the soft magnetism steel wool.
The porch of fluid collection tank 8 is provided with shield 11.Shield 11 is tapered, so that ferromagnetic material falls in the ferromagnetic material feeder 10 along taper shield 11.
During work, the fluid introducing port imports fluid in the non-magnetic conductive cylinder in the magnetic field into, and the soft magnetic medium in the non-magnetic conductive cylinder is drawn the ferromagnetic material in the fluid get off, and the fluid that has separated ferromagnetic material flows in the fluid collection tank; After treating that soft magnetic medium has been filled ferromagnetic material, hide by the inlet of shield 11 fluid collection tank 8, by promoting actuating unit 16 non-magnetic conductive cylinder 5 is promoted a segment distance together with frame 15 then, so that form passage at passage 3 and 5 of non-magnetic conductive cylinders, driving non-magnetic conductive cylinder by revolving power mechanism then rotates at a high speed, utilize centrifugal force that the ferromagnetic material on the soft magnetic medium is separated and pass non-magnetic conductive cylinder admission passage, and fall in the ferromagnetic material feeder along passage, thereby the soft magnetic medium cleaning is clean, so that it comes into operation effectively again.
Embodiment 2: as Fig. 4,5, shown in 3, during present embodiment on the basis of embodiment 1, passage 3 is by crossing the non-magnetic conduction passage 3 of straight tubular that actuating unit 2 drives turnover magnetic field 1, non-magnetic conductive cylinder 5 is arranged on the non-magnetic conductive cylinder 5 of the straight tubular that has revolving power mechanism 4 in the non-magnetic conduction passage 3 of straight tubular, the diameter of the straight non-magnetic conduction passage 3 of tubular is bigger than the external diameter of the non-magnetic conductive cylinder 5 of straight tubular, in the straight non-magnetic conduction passage 3 of tubular, be provided with bracing frame 17, the non-magnetic conductive cylinder 5 of straight tubular rotates and is arranged on the bracing frame 17, as shown in Figure 5, the side is provided with several perforation 7 around the non-magnetic conductive cylinder 5, perforation 7 is net distribution side around non-magnetic conductive cylinder 5, the fluid issuing 5a that faces non-magnetic conductive cylinder 5 lower ends below the magnetic field 1 is provided with fluid collection tank 8, the fluid inlet 5b that faces non-magnetic conductive cylinder 5 upper ends above the magnetic field 1 is provided with fluid introducing port 9, and the magnetic field 1 outer ferromagnetic material outlet 3a that faces non-magnetic conduction passage 3 lower ends is provided with ferromagnetic material feeder 10.
Lateral surface at the straight non-magnetic conductive cylinder 5 of tubular is provided with sealing cover 12.During use, when needs remove ferromagnetic material in the fluid, adopt of perforation 7 sealings of sealing cover 12 with the non-magnetic conductive cylinder 5 of straight tubular, in case the fluid stopping body flows out 7 from boring a hole, when the ferromagnetic material on the needs cleanings soft magnetic medium, will seal and overlap 12 and remove, so that ferromagnetic material comes out 7 from boring a hole.Sealing cover 12 is provided with mobile actuating unit 13.
Be provided with baffle plate 14 at revolving power mechanism 4 and 5 of non-magnetic conductive cylinders, fall damage revolving power mechanism 4 on the revolving power mechanism 4 to avoid fluid.
Embodiment 3: as shown in Figure 6, present embodiment is on the basis of embodiment 1, adopts the electromagnetism magnetic pole to substitute north and south permanent magnet pole 16.
Embodiment 4: as shown in Figure 7, present embodiment is on the basis of embodiment 3, passage 3 is the non-magnetic conduction passages 3 of straight tubular, non-magnetic conductive cylinder 5 is the non-magnetic conductive cylinders 5 of straight tubular that have revolving power mechanism 4, the diameter of the straight non-magnetic conduction passage 3 of tubular is bigger than the external diameter of the non-magnetic conductive cylinder 5 of straight tubular, is provided with bracing frame 17 in the straight non-magnetic conduction passage 3 of tubular, and the non-magnetic conductive cylinder 5 of straight tubular rotates and is arranged on the bracing frame 17, lateral surface at the straight non-magnetic conductive cylinder 5 of tubular is provided with sealing cover 18.Be provided with baffle plate 14 at revolving power mechanism 4 and 5 of non-magnetic conductive cylinders.
Embodiment 5: as shown in Figure 8, present embodiment is on the basis of embodiment 4, whole device is the shape setting that couches, the two ends of the straight non-magnetic conductive cylinder 5 of tubular are rotated respectively and are arranged on bracing frame 17 and the fluid introducing port 9, the fluid issuing 5a of the straight non-magnetic conductive cylinder 5 of tubular is connected with fluid and derives passage 19, fluid is derived the outlet of passage 19 facing to fluid collection tank 8, and ferromagnetic material feeder 10 is positioned at exit, straight tubular non-magnetic conduction passage 3 end.During work, rotate the non-magnetic conductive cylinder 5 of straight tubular, make its fluid issuing 5a face fluid and derive passage 19, like this, just can derive passage 19 by fluid except that the fluid behind the ferromagnetic material and fall on the fluid collection tank 8 by fluid issuing 5a.
Claims (10)
1. fluid deferrization method, it is characterized in that being included in the magnetic field between the magnetic pole of north and south with the ferromagnetic material process in the soft magnetic medium draw fluid, ferromagnetic material process on the cleaning soft magnetic medium, its special feature is to be arranged on all around by soft magnetic medium, and the side is provided with in the non-magnetic conductive cylinder that has rotary power of several perforation, being fluid with the ferromagnetic material process in the soft magnetic medium draw fluid in the magnetic field between the magnetic pole of north and south enters in the non-magnetic conductive cylinder from the wherein end of non-magnetic conductive cylinder, draw behind the ferromagnetic material again in the fluid collection tank below the other end of non-magnetic conductive cylinder comes out to enter through soft magnetic medium, ferromagnetic material process on the cleaning soft magnetic medium is that the non-magnetic conductive cylinder that will be provided with soft magnetic medium places cavity than in the big passage of non-magnetic conductive cylinder, driving non-magnetic conductive cylinder by rotary power rotates at a high speed, non-magnetic conductive cylinder then drives soft magnetic medium and rotates at a high speed, by centrifugal force the ferromagnetic material on the soft magnetic medium is separated and passed in several set perforation admission passages of non-magnetic conductive cylinder side, and collect in the ferromagnetic material feeder along passage.
2. fluid deferrization method according to claim 1, it is characterized in that the non-magnetic conductive cylinder that will be provided with soft magnetic medium move apart behind the magnetic field between the magnetic pole of north and south or eliminate magnetic field after just clean ferromagnetic material process on the soft magnetic medium.
3. fluid deferrization method according to claim 1 and 2 is characterized in that when non-magnetic conduction passage enters or go out magnetic field between the magnetic pole of north and south fluid collection tank being covered in.
4. fluid deferrization method according to claim 3 is characterized in that soft magnetic medium is the soft magnetism steel wool.
5. fluid deferrization device, it is characterized in that comprising by the magnetic field that forms between permanent magnet or electromagnetism north and south magnetic pole, the non-magnetic conductive cylinder that has revolving power mechanism, be arranged on soft magnetic medium, the cavity passage bigger in the non-magnetic conductive cylinder than non-magnetic conductive cylinder, the side is provided with several perforation around the non-magnetic conductive cylinder, the fluid issuing that the outside, magnetic field faces non-its other end of magnetic conductive cylinder is provided with fluid collection tank, magnetic field outside face non-magnetic conductive cylinder wherein the fluid inlet of an end be provided with the fluid introducing port, the ferromagnetic material outlet of channel end is provided with the ferromagnetic material feeder.
6. fluid deferrization device according to claim 5 is characterized in that the porch of fluid collection tank is provided with shield.
7. according to claim 5 or 6 described fluid deferrization devices, it is characterized in that being provided with frame, promote actuating unit, the tapered and non-magnetic conduction of passage, corresponding non-magnetic conductive cylinder is tapered, non-magnetic conductive cylinder rotates and is arranged on the frame, and frame is connected with the lifting actuating unit.
8. according to claim 5 or 6 described fluid deferrization devices, it is characterized in that passage is the non-magnetic conduction passage of straight tubular, non-magnetic conductive cylinder is the non-magnetic conductive cylinder of straight tubular that has revolving power mechanism, the diameter of the straight non-magnetic conduction passage of tubular is bigger than the external diameter of the non-magnetic conductive cylinder of straight tubular, in the straight non-magnetic conduction passage of tubular, be provided with bracing frame, the non-magnetic conductive cylinder of straight tubular rotates and is arranged on the bracing frame, is provided with the sealing cover at the lateral surface of the straight non-magnetic conductive cylinder of tubular.
9. fluid deferrization device according to claim 8, it is characterized in that passage 3 is provided with actuating unit, fluid collection tank is arranged on the fluid issuing that faces non-magnetic conductive cylinder lower end below the magnetic field, the fluid introducing port is arranged on the fluid inlet that faces non-magnetic conductive cylinder upper end above the magnetic field, and the ferromagnetic material feeder is arranged on the ferromagnetic material outlet that faces non-magnetic conduction passage lower end outside the magnetic field.
10. according to claim 5 or 6 or 9 described fluid deferrization devices, it is characterized in that soft magnetic medium adopts the soft magnetism steel wool.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
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CN201110007958XA CN102179294A (en) | 2011-01-14 | 2011-01-14 | Method and device for removing iron in fluid |
PCT/CN2011/001946 WO2012094789A1 (en) | 2011-01-14 | 2011-11-23 | Method and apparatus for removing iron from fluid |
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CN201110007958XA CN102179294A (en) | 2011-01-14 | 2011-01-14 | Method and device for removing iron in fluid |
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CN201110007958XA Pending CN102179294A (en) | 2011-01-14 | 2011-01-14 | Method and device for removing iron in fluid |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012094789A1 (en) * | 2011-01-14 | 2012-07-19 | Li Ze | Method and apparatus for removing iron from fluid |
CN106167293A (en) * | 2016-08-29 | 2016-11-30 | 李泽 | A kind of except ferromagnetic material device |
CN106984428A (en) * | 2017-05-16 | 2017-07-28 | 廖明勇 | A kind of meson concertina type magnetic separator de-ironing |
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CN2657781Y (en) * | 2003-09-18 | 2004-11-24 | 淄博维霄除铁设备厂 | Automatic electromagnetic deironing apparatus |
CN1917959A (en) * | 2004-02-17 | 2007-02-21 | 纳幕尔杜邦公司 | Magnetic field and field gradient enhanced centrifugation solid-liquid separations |
US20080029457A1 (en) * | 2005-04-28 | 2008-02-07 | Hitachi, Ltd. | Magnetic Separation Purifying Apparatus and Magnetic Separation Purifying Method |
CN101862702A (en) * | 2010-06-21 | 2010-10-20 | 昆明理工大学 | Centrifugal high-gradient magnetic method |
CN201959860U (en) * | 2011-01-14 | 2011-09-07 | 李泽 | Fluid deironing device |
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2011
- 2011-01-14 CN CN201110007958XA patent/CN102179294A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2657781Y (en) * | 2003-09-18 | 2004-11-24 | 淄博维霄除铁设备厂 | Automatic electromagnetic deironing apparatus |
CN1917959A (en) * | 2004-02-17 | 2007-02-21 | 纳幕尔杜邦公司 | Magnetic field and field gradient enhanced centrifugation solid-liquid separations |
US20080029457A1 (en) * | 2005-04-28 | 2008-02-07 | Hitachi, Ltd. | Magnetic Separation Purifying Apparatus and Magnetic Separation Purifying Method |
CN101862702A (en) * | 2010-06-21 | 2010-10-20 | 昆明理工大学 | Centrifugal high-gradient magnetic method |
CN201959860U (en) * | 2011-01-14 | 2011-09-07 | 李泽 | Fluid deironing device |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012094789A1 (en) * | 2011-01-14 | 2012-07-19 | Li Ze | Method and apparatus for removing iron from fluid |
CN106167293A (en) * | 2016-08-29 | 2016-11-30 | 李泽 | A kind of except ferromagnetic material device |
CN106984428A (en) * | 2017-05-16 | 2017-07-28 | 廖明勇 | A kind of meson concertina type magnetic separator de-ironing |
CN106984428B (en) * | 2017-05-16 | 2018-11-09 | 廖明勇 | A kind of meson concertina type magnetic separator de-ironing |
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Application publication date: 20110914 |